I.C. Plumb, D.C. Cook and S.C. Haydon.
DESMOND C. COOK
PUBLISHED BOOKS, MONOGRAPHS AND PAPERS:
Updated 01/08/14
Publications of Professor Desmond Cook, Materials Physics, Old Dominion University:
Publications
1970-1984 (Monash University, University of New England, Old Dominion
University).
A
basic understanding of holography.
D. C. Cook.
Professional Photography in Australia, November - December, 16 (1971).
The magnetic ordering direction in GdAlO3.
D. C. Cook and J. D. Cashion.
Journal of Physics C: Solid State Physics 9, 97 (1976).
Determination of the nuclear
parameters of 155Gd excited states using the Mössbauer effect.
D.C. Cook and J.D. Cashion.
Hyperfine Interactions 5, 479 (1978).
Mössbauer measurements and exchange interactions in
antiferromagnetic GdVO4.
D.C. Cook and J.D. Cashion.
Journal of Physics C: Solid State Physics 12, 605 (1979).
Mössbauer measurements in canted antiferromagnetic
GdAlO3.
D.C. Cook and J.D. Cashion.
Journal of Physics C: Solid State Physics 13, 4199 (1980).
Laboratory investigations of pulsed rf
plasmas relevant to cw arc pluming at high-power aerials, Pt.1: Critical breakdown under
pulsed rf conditions.
I.C. Plumb, D.C. Cook and S.C. Haydon.
Laboratory investigations of pulsed rf
plasmas relevant to cw arc pluming at high-power aerials, Pt.2: Relevance of scale-model
studies based on pulsed rf techniques.
D.C. Cook and S.C. Haydon.
Gas flow proportional counter for low
temperature conversion electron Mössbauer spectroscopy.
D.C. Cook and E. Agyekum.
Nuclear Instruments and Methods in Physics Research B12, 515 (1985).
Mössbauer effect study of gadolinium
iron garnet.
D.C. Cook and Jun Li.
Hyperfine Interactions 28, 495 (1986).
Conversion electron and x-ray
Mössbauer studies of the corrosion products and surface modifications in stainless and
weathering steels.
D.C. Cook.
Hyperfine Interactions 28, 891 (1986).
A gas flow proportional counter for
the Mössbauer study of surfaces between 100 K and 400K.
D.C. Cook.
Hyperfine Interactions 29, 1463 (1986).
Mössbauer spectroscopic studies of hemoglobin and
its isolated subunits.
G.R. Hoy, D.C. Cook, R.L. Berger and F.K. Friedman.
Biophysical Journal 49, 1009 (1986).
Mössbauer effect study of the 105.3
KeV transition in 155Gd.
D.C. Cook and G.A. McGhee.
Nuclear Instruments and Methods in Physics Research B18, 80 (1986).
Strain induced martensite formation in stainless
steel.
D.C. Cook.
Metallurgical Transactions 18A, 209 (1987).
Study of the surface structure of
tempered carbon steel.
D.C. Cook.
Hyperfine Interactions 41, 625 (1988).
Environmental influence on the formation of
a-FeOOH on the structure of weathering steel.
Magnetic interactions in GdAl3.
N.G. Ruggiero, D.C. Cook and A.S. Edelstein.
Hyperfine Interactions 54, 689 (1990).
Zinc-iron phases formed on
galvannealed steel.
D.C. Cook, R.S. Tuszynski and H.E. Townsend.
Hyperfine Interactions 54, 781 (1990).
Magnetic field distributions in
zinc-nickel ferrite.
T.A. Dooling and D.C. Cook.
Journal of Applied Physics 69, 5352 (1991).
Phase changes in plasma sprayed
zinc-nickel ferrite.
T.A. Dooling and D.C. Cook.
Journal of Applied Physics 69, 5355 (1991).
The microstructural properties of
highly nitrogenated iron and iron-aluminum powders.
D.C. Cook and J.C. Rawers.
Hyperfine Interactions 92, 959 (1994).
A high temperature
Mössbauer effect
study of iron doped Y-Ba-Cu-O superconductor.
D.J. Ford, D.C. Cook, J.A. Gardner and J.A. Sommers.
Hyperfine Interactions 93, 1627 (1994).
Mössbauer effect and xrd studies in
iron-zinc binary alloys.
R.G. Grant and D.C. Cook.
Hyperfine Interactions 94, 2309 (1994).
Evaluating the mechanical processing and compaction of iron
powder.
J. C. Rawers, D. Govier, D. C. Cook, G. Forth and C. P. Gogan,
in Novel Techniques in Synthesis and Processing of Advanced Materials, ed.
Jogender Singh, Stephen M. Copley, pp. 241-250, 1994.
Raman spectroscopy of the zeta phase zinc-iron
intermetallic compound.
H.E. Townsend, G.L. Johnson, R.G. Grant and D.C. Cook.
Scripta Metallurgica et Materialia 31(11), 1445 (1994).
Bct-formation during mechanical processing of
bcc-fe
powder.
J.C. Rawers, D. Govier and D.C. Cook.
Scripta Metallurgica et Materialia, 32(9), 1319 (1995).
Preparation and chemical analysis of high purity
iron-zinc alloys.
R.G. Grant, P.S. Cook and D.C. Cook.
Journal of Materials Research, 10(10), 2454 (1995).
Measurement
of nuclear quadrupole interactions Mössbauer spectroscopy.
D.C. Cook
The Nuclear Quadrupole Interactions Newsletter, 1(4), 8 (1995).
Iron-zinc phase identification in
commercial galvanneal steel.
R.G. Grant and D.C. Cook.
Proceedings Galvatech >95, C.E. Slater
Publisher, 509 (1995).
Study of the microstructure of
Fe-Zn-Al and Fe-Zn-Pb ternary alloys.
T.Q. Coddington and D.C. Cook.
Proceedings Galvatech >95, C.E. Slater
Publisher, 515 (1995).
Identification of multiple iron sites
in Fe-Zn binary alloys.
D.C. Cook and R.G. Grant.
Proceedings Galvatech >95, C.E. Slater
Publisher, 497 (1995).
Microstructure development and stability of iron
powder mechanically alloyed in a nitrogen atmosphere.
J.C. Rawers, D. Govier , D.C. Cook.
Journal of Materials Synthesis and Processing, 3(4), 263 (1995).
Measurement
of nuclear quadrupole interactions by Mössbauer spectroscopy.
D.C. Cook
Zeitschrift fur Naturforsch, A51, 368 (1996).
Mössbauer study of the corrosion
products on steel exposed in a marine environment.
Sei J. Oh, D.C. Cook and A.C. Van Orden
Proceedings ICAME=95, 653 (1996). Pub. Italian
Physical Society.
Iron-zinc phase identification in
commercial galvanneal steel coatings.
R.G. Grant and D.C. Cook
Proceedings ICAME=95, 929 (1996). Pub. Italian
Physical Society.
Mössbauer spectroscopy of aluminum
substituted galvanneal steel.
T.Q. Coddington and D.C. Cook
Proceedings ICAME=95, 925 (1996). Pub. Italian
Physical Society.
Formation of bct-fe through attritor
ball-milling of iron powder in nitrogen.
D.C. Cook, T. H. Kim and J.C. Rawers
Proceedings ICAME=95, 141 (1996). Pub. Italian
Physical Society.
Mechanically alloying of nitrogen into
iron powders.
J.C. Rawers, D. Govier and D.C. Cook.
ISIJ International, 36(7), 958 (1996).
Iron-zinc intermetallics in commercial
galvanneal steel coatings.
D.C. Cook and R.G. Grant.
Mössbauer Spectroscopy Applied to Magnetism and Materials Science, G.J. Long and F.
Grandjean, eds., Vol. 2, Ch. 10, 225-271, Plenum Pub. Corp., N.Y. (1996). ISBN
0-306-45398-3.
Microstructural development of iron
powder during attritor ball milling.
D.C. Cook, T. H. Kim and J.C. Rawers.
Materials Science Forum vols. 225-227, 533-538 (1996).
Similarities and differences in the microstructure
of attritor-milled Fe-Al-N compositions
J.C. Rawers and D.C. Cook.
Journal of Materials Research, 12(4), 947 (1997).
Differences in the microstructure of
iron mechanically processed powder alloyed with interstitial and substitutional elements.
J.C. Rawers, R. Krabbe, D.C. Cook and T.H. Kim
Nanostructured Materials, 9, 947-952 (1997).
In-situ identification of the
iron-zinc intermetallics in galvannealed steel coatings and iron oxides on exposed steel.
D.C. Cook
Hyperfine Interactions, 111, 71-84 (1998).
Characterization of iron oxides
commonly formed as corrosion products on steel.
S.J. Oh, D.C. Cook and H.E. Townsend.
Hyperfine Interactions, 112, 59-65 (1998).
Modification of galvannealed steel
through aluminum addition.
T.Q. Coddington and D.C. Cook.
Hyperfine Interactions, 111, 205-209 (1998).
The protective layer formed on steels
after sixteen years of atmospheric exposure.
D.C. Cook, S.J. Oh and H.E. Townsend.
CORROSION'98, STP 343, NACE International, 343,
1-11, (1998).
Corrosion product identification by
micro-Raman and Mössbauer spectroscopy.
F. Adar, B. Lenain, D.C. Cook and S.J. Oh.
Journal of Microscopy and Microanalysis, 4(2), 506-507, (1998).
Applications of Mössbauer
spectroscopy in the characterization of nanostructured materials.
J.C. Rawers, D.C. Cook and T.H. Kim.
J. Materials Science and Engineering, A248, 212-220, (1998).
Atmospheric corrosion in the Gulf of
México.
D.C. Cook, A.C. Van Orden, J.J. Carpio and S.J. Oh.
Hyperfine Interactions, 113, 319-329, (1998).
Study of the protective layer formed
on weathering steel.
S.J. Oh, D.C. Cook and H.E. Townsend.
Hyperfine Interactions C3, 84-87, (1998).
Intermetallic phase formation in
galvanneal steel coatings with varying aluminum concentration.
T.Q. Coddington and D.C. Cook.
Hyperfine Interactions C3, 104-107, (1998).
ICAME97 AWARD
Effect of mechanical alloying on the
microstructural properties of Fe-xAl system.
Rama Balasubramanian, D.C. Cook and J.C. Rawers.
Hyperfine Interactions C3, 25-28, (1998).
X-ray diffraction and Mössbauer
effect characterization of attritor-milled nanostructured iron and iron-nitrogen powders.
J.C. Rawers, D.C. Cook and T.H. Kim
Philosophical Magazine A78(4), 965-977, (1998).
Mössbauer effect determination of relative
recoilless fractions for iron oxides.
S.J. Oh and D.C. Cook.
J. Applied Physics 85(1), 329-332 (1999).
Atmospheric corrosion of different steels in marine,
rural and industrial environments.
S.J. Oh, D.C. Cook and H.E. Townsend
Corrosion Science 41(9), 1687-1702 (1999).
Influence of attrition milling on
nano-grain
boundaries.
J.C. Rawers and D.C. Cook
Nanostructured Materials 11(3), 331-342 (1999).
X-Ray Amorphous Substance in Rust Layer on Weathering
Steel Exposed for Long-Term in North America and its Effect on
Goethite/Lepidocrocite
Ratio.
M. Yamashita, T. Misawa, S. J. Oh, R. Balasubramanian and D.C. Cook.
Proc. 46th Japan Conference on Materials and Environments, Japan Society of
Corrosion Engineering, 113-116 (1999). In Japanese.
Nitrogen Addition to bcc-Fe by Attrition Milling.
J. Rawers, R. Krabbe and D. Cook.
Materials Science Forum 318-320, 695-700 (1999).
The role of goethite in the
formation of the protective corrosion layer on steels.
D.C. Cook, R. Balasubramanian, S.J. Oh and M. Yamashita
Hyperfine Interactions 122, 59-70 (1999).
Study of the initial corrosion
products formed on carbon steel exposed along the Gulf of México.
R. Balasubramanian, D.C. Cook, T. Perez and J. Reyes.
Hyperfine Interactions C4, 37-41 (1999).
Studying
the atmospheric corrosion behavior of weathering steels at a mild marine environment.
S.J. Oh, D.C. Cook, S.J. Kwon and H.E. Townsend.
Hyperfine Interactions C4, 49-54 (1999).
Development of
nano-phase iron oxides from short-term atmospheric
exposure of carbon steel.
R. Balasubramanian, D. C. Cook, T. Perez and J. Reyes.
CORROSION 2000, STP 453, NACE International, 453, 1-11 (2000).
The Luling Bridge: An Inside Story.
D. C. Cook and A. C. Van Orden.
CORROSION 2000, STP 449, NACE International, 449, 1-8 (2000).
Quantitative
Analysis of Ultra-Fine Goethite in Rust Layer on Steel Using Mössbauer
and X-Ray
Diffraction Spectroscopy.
M. Yamashita, T. Misawa, H. E. Townsend and D. C. Cook.
Journal of the Japanese Institute of Metals, 64(1), 77-78 (2000). In
Japanese.
Mössbauer
Spectroscopic Study on X-Ray Amorphous Substance in Rust layer of Weathering
Steel Subjected to Long-Term Exposure in North America.
M. Yamashita, T. Misawa, S. J. Oh, R. Balasubramanian and D. C. Cook.
Zairo-to-Kankyo, 49(2), 82-87 (2000). In Japanese.
Characterization
of the Corrosion Products Formed on Carbon Steel in a Marine Environment.
S. J. Oh, D. C. Cook and J. J. Carpio.
Journal of the Korean Physical Society, 36(2), 106-110 (2000).
Mössbauer
Spectroscopic Study of X-Ray Amorphous Substance in the Rust Layer of Weathering
Steel Subjected to Long-Term Exposure in North America.
M. Yamashita, T. Misawa, S. J. Oh, R. Balasubramanian and D. C. Cook.
Corrosion Engineering, 49, 133-144 (2000).
Atmospheric
Corrosion in Marine Environments along the Gulf of Mexico.
D. C. Cook, A. C. Van Orden (dec.), J. Reyes, S. J. Oh, R. Balasubramanian,
J. J. Carpio and
H. E. Townsend.
Marine Corrosion in Tropical Environments, ASTM STP 1399, S. W. Dean, G.
Hernandez-Duque Delgadillo, and J. B. Bushman, Eds., American Society for
Testing and Materials, West Conshohocken, PA, September 2000. Pages 75-97 (ISBN:0-8031-2873-8)
Structural Analysis of Rust Layer on Low-Alloy Steels Exposed
for 17 years Using X-Ray and Mössbauer Spectroscopy.
M. Yamashita, H. Uchida and D. C. Cook.
Proceedings of the Second International Conference
on Environment Sensitive Cracking and Corrosion Damage (ESCCD2001), Pages
204-209, 2002.
Effect of Cr3+
and SO42-
on the structure of rust layer formed on steels by atmospheric corrosion.
M. Yamashita, H. Uchida and D. C. Cook.
Outdoor and Indoor Atmospheric Corrosion, ASTM STP 1421, H. E. Townsend,
Ed., American Society for
Testing and Materials, West Conshohocken, PA, 2002. Pages 149-156 ( ISBN:
0-8031-2896-7)
Magnetic Relaxation in
Nano-Phase Chromium Goethite
R. Balasubramanian, D. C. Cook and M. Yamashita.
Hyperfine Interactions, 139, 167-173 (2002).
A Mössbauer Study of Gray
Stains in Electrogalvanized Steel.
M. Zapponi, T. Perez, C. Ramos, G. Polla, C. Saragovi and D. C. Cook.
Hyperfine Interactions, 139, 447-453 (2002).
Applications of
Mössbauer Spectroscopy in Industry.
D. C. Cook.
Hyperfine Interactions, 141-142, 21-34 (2002).
Transmission
Mössbauer Analysis of Nanophased Oxides formed on High Strength Steels
R. Balasubramanian, D. C. Cook and H. E. Townsend.
Hyperfine Interactions, 141-142, 369-379 (2002).
Mössbauer
Characterization of Rust Obtained in an Accelerated Corrosion Test.
K. E. Garcia, A. L. Morales, C. E. Arroyave, C. A. Barrero and D. C. Cook.
Hyperfine Interactions, 148-149, 177-183 (2003).
Applications
of Mössbauer Spectroscopy to the Study of Corrosion
D. C. Cook.
Hyperfine Interactions, 153(1-4), 61-82 (2004).
The
Corrosion of High Performance Steel in Adverse Environments
Desmond C. Cook.
American Institute of Physics, CP765, 63-72, (2005), ISBN 0-7354-0250-7.
Corrosion
of Submerged Artifacts and the Conservation of the USS Monitor
Desmond C. Cook, and Curtiss E. Peterson.
American Institute of Physics, CP765, 91-96, (2005), ISBN 0-7354-0250-7.
Spectroscopic
identification of the protective and non-protective corrosion coatings on steel
structures in marine environments
Desmond C. Cook.
Corrosion Science 47, 2550-2570 (2005).
Corrosion
characterization and treatment evaluation of iron artifacts recovered from the
USS Monitor.
Cook, D. C. and Schindelholz, E.
Bulletin of the REsearch On MEtal and Conservation, BROMEC16, Nov 2005,
pp. 8-9.
Spectroscopic evaluation of the
corrosion products on the turret of the American Civil War Ironclad, USS Monitor.
D. C. Cook, M. J. Shaw, E.
Schindelholz, B. L. Bramfitt, S. J. Lawrence and R. C.
Nester.
NACE Corrosion, 7238, 1-19, (2007).
Corrosion
condition assessment, mitigation, and preservation of the USS Monitor artifacts.
C. S. Brossia, M. Yunovich, D. Hill, K. M. Lawson, R. Denzine, J. T. Schmidt, E.
Klechka, E. Schindelholz, E. Nordgren, D. Krop, R. Baboian, H. Hack, J.D.
Flessas, and D. C. Cook. NACE Corrosion, 7239. 1-15, (2007).
An active
coating and new protection technology for weathering steel structures in
chloride containing environments.
Desmond Cook.
NACE Corrosion, 7360, 1-12, (2007).
An evaluation of supercritical
drying and PEG/freeze drying of waterlogged archeological wood.
E. Schindelholz, R. Blanchette, D. C. Cook, M. Drews, J. Jurgens, S. Hand, B.
Held, and B. Seifert.
Proceedings of the 10th ICOM-CC Group on Wet Organic Archaeological
Materials (Amsterdam 2007) ISBN:
978 90 5799 139-4.
Transformation of akaganeite in
archaeological iron artifacts using subcritical treatment.
P. de Vivies, D. C. Cook, M. Drews, N. Gonzalez, P. Mardikian, and J. B.
Memet.
Metal 07: Proceedings of the International Conference on Metals
Conservation, 5,
26-30, (2008), ed.
C. Degrigny, R. van Langh, I, Joosten, B, Ankersmit .
The
effects of cathodic polarization, soaking in alkaline solutions and subcritical
water on cast and wrought iron products.
N. Gonzalez, D. C. Cook, P. de Vivies, M. Drews, and P. Mardikian.
Metal 07: Proceedings of the International Conference on Metals
Conservation, 3, 32-37,
(2008), ed.
C. Degrigny, R. van Langh, I, Joosten, B, Ankersmit
Corrosion and conservation of
three elements of the American Civil War ironclad, USS Monitor (1862).
I. D. MacLeod, D. C. Cook, and E. Schindelholz.
Metal 08: ICOM-CC, October 2008.16th
Triennial Conference Preprints, New Delhi, 22-26 September 2008, ed. J.
Bridgland, Allied Publishers, New Delhi (2008) 279-285.
DESMOND
C. COOK
SELECTED PUBLICATIONS
and RESEARCH REPORTS: Updated 01/08/14
Sorted
by Topic
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1. CORROSION
3. GALVANNEAL and Iron-Zinc Alloys
4. MECHANICAL ALLOYING and High Nitrogen Steels
Conversion electron and x-ray
Mössbauer studies of the corrosion products and surface modifications in stainless and
weathering steels.
D.C. Cook.
Hyperfine Interactions 28, 891 (1986).
Strain induced martensite formation in stainless
steel.
D.C. Cook.
Metallurgical Transactions 18A, 209 (1987).
Study of the surface structure of
tempered carbon steel.
D.C. Cook.
Hyperfine Interactions 41, 625 (1988).
Environmental
influence on the formation of a-FeOOH
on the structure of weathering steel.
S. Rezaie-Serej and D.C. Cook.
Hyperfine Interactions 41, 701 (1988).
Mössbauer study of the corrosion
products on steel exposed in a marine environment.
Sei J. Oh, D.C. Cook and A.C. Van Orden
Proceedings ICAME=95, 653 (1996). Pub. Italian
Physical Society.
Characterization of iron oxides
commonly formed as corrosion products on steel.
S.J. Oh, D.C. Cook and H.E. Townsend.
Hyperfine Interactions, 112, 59-65 (1998).
The protective layer formed on steels
after sixteen years of atmospheric exposure.
D.C. Cook, S.J. Oh and H.E. Townsend.
CORROSION=98, STP 343, NACE International, 343,
1-11, (1998).
Corrosion product identification by
micro-Raman and Mössbauer spectroscopy.
F. Adar, B. Lenain, D.C. Cook and S.J. Oh.
Journal of Microscopy and Microanalysis, 4(2), 506-507, (1998).
Atmospheric corrosion in the Gulf of
México.
D.C. Cook, A.C. Van Orden, J.J. Carpio and S.J. Oh.
Hyperfine Interactions, 113, 319-329, (1998).
Study of the protective layer formed
on weathering steel.
S.J. Oh, D.C. Cook and H.E. Townsend.
Hyperfine Interactions C3, 84-87, (1998).
Mössbauer effect determination of relative
recoilless fractions for iron oxides.
S.J. Oh and D.C. Cook.
J. Applied Physics 85(1), 329-332 (1999).
Atmospheric corrosion of different steels in marine,
rural and industrial environments.
S.J. Oh, D.C. Cook and H.E. Townsend
Corrosion Science 41(9), 1687-1702 (1999).
X-Ray Amorphous Substance in Rust Layer on Weathering
Steel Exposed for Long-Term in North America and its Effect on
Goethite/Lepidocrocite
Ratio.
M. Yamashita, T. Misawa, S. J. Oh, R. Balasubramanian and D.C. Cook.
Proc. 46th Japan Conference on Materials and Environments, Japan Society of
Corrosion Engineering, 113-116 (1999). In Japanese.
The role of goethite in the
formation of the protective corrosion layer on steels.
D.C. Cook, R. Balasubramanian, S.J. Oh and M. Yamashita
Hyperfine Interactions 122, 59-70 (1999).
Study of the initial corrosion
products formed on carbon steel exposed along the Gulf of México.
R. Balasubramanian, D.C. Cook, T. Perez and J. Reyes.
Hyperfine Interactions C4, 37-41 (1999).
Studying
the atmospheric corrosion behavior of weathering steels at a mild marine environment.
S.J. Oh, D.C. Cook, S.J. Kwon and H.E. Townsend.
Hyperfine Interactions C4, 49-54 (1999).
Development of
nano-phase iron oxides from short-term atmospheric
exposure of carbon steel.
R. Balasubramanian, D. C. Cook, T. Perez and J. Reyes.
CORROSION 2000, STP 453, NACE International, 453, 1-11 (2000).
The Luling Bridge: An Inside Story.
D. C. Cook and A. C. Van Orden.
CORROSION 2000, STP 449, NACE International, 449, 1-8 (2000).
Quantitative
Analysis of Untra-Fine Goethite in Rust Layer on Steel Using Mossbauer and X-Ray
Diffraction Spectroscopy.
M. Yamashita, T. Misawa, H. E. Townsend and D. C. Cook.
Journal of the Japanese Institute of Metals, 64(1), 77-78 (2000). In
Japanese.
Mossbauer
Spectroscopic Study on X-Ray Amorphous Substance in Rust layer of Weathering
Steel Subjected to Long-Term Exposure in North America.
M. Yamashita, T. Misawa, S. J. Oh, R. Balasubramanian and D. C. Cook.
Zairo-to-Kankyo, 49(2), 82-87 (2000). In Japanese.
Characterization
of the Corrosion Products Formed on Carbon Steel in a Marine Environment.
S. J. Oh, D. C. Cook and J. J. Carpio.
Journal of the Korean Physical Society, 36(2), 106-110 (2000).
Mossbauer
Spectroscopic Study of X-Ray Amorphous Substance in the Rust Layer of Weathering
Steel Subjected to Long-Term Exposure in North America.
M. Yamashita, T. Misawa, S. J. Oh, R. Balasubramanian and D. C. Cook.
Corrosion Engineering, 49, 133-144 (2000).
Atmospheric
Corrosion in Marine Environments along the Gulf of Mexico.
D. C. Cook, A. C. Van Orden (dec.), J. Reyes, S. J. Oh, R. Balasubramanian,
J. J. Carpio and
H. E. Townsend.
Marine Corrosion in Tropical Environments, ASTM STP 1399, S. W. Dean, G.
Hernandez-Duque Delgadillo, and J. B. Bushman, Eds., American Society for
Testing Materials, West Conshohocken, PA, September 2000. Pages 75-97 (ISBN:0-8031-2873-8)
Structural Analysis of Rust Layer on Low-Alloy Steels Exposed
for 17 years Using X-Ray and Mossbauer Spectroscopy.
M. Yamashita, H. Uchida and D. C. Cook.
Proceedings of the Second International Conference
on Environment Sensitive Cracking and Corrosion Damage (ESCCD2001), Pages
204-209, 2002.
Effect of Cr3+
and SO42-
on the structure of rust layer formed on steels by atmospheric corrosion.
M. Yamashita, H. Uchida and D. C. Cook.
Outdoor and Indoor Atmospheric Corrosion, ASTM STP 1421, H. E. Townsend,
Ed., American Society for
Testing and Materials, West Conshohocken, PA, 2002. Pages 149-156 ( ISBN:
0-8031-2896-7)
A Mössbauer Study of Gray Stains in Electrogalvanized Steel.
M. Zapponi, T. Perez, C. Ramos, G. Polla, C. Saragovi and D. C. Cook
Hyperfine Interactions, 139, 447-453 (2002).
Applications of
Mössbauer Spectroscopy in Industry.
D. C. Cook.
Hyperfine Interactions, 141-142, 21-34 (2002).
Transmission
Mössbauer Analysis of Nanophased Oxides formed on High Strength Steels
R. Balasubramanian, D. C. Cook and H. E. Townsend.
Hyperfine Interactions, 141-142, 369-379 (2002).
Mössbauer
Characterization of Rust Obtained in an Accelerated Corrosion Test.
K. E. Garcia, A. L. Morales, C. E. Arroyave, C. A. Barrero and D. C. Cook.
Hyperfine Interactions, 148-149, 177-183 (2003).
Applications
of Mössbauer Spectroscopy to the Study of Corrosion
D. C. Cook.
Hyperfine Interactions, 153(1-4), 61-82 (2004).
The
Corrosion of High Performance Steel in Adverse Environments
Desmond C. Cook.
American Institute of Physics, CP765, 63-72, (2005), ISBN 0-7354-0250-7.
Corrosion
of Submerged Artifacts and the Conservation of the USS Monitor
Desmond C. Cook, and Curtiss E. Peterson.
American Institute of Physics, CP765, 91-96, (2005), ISBN 0-7354-0250-7.
Spectroscopic
identification of the protective and non-protective corrosion coatings on steel
structures in marine environments
Desmond C. Cook.
Corrosion Science 47, 2550-2570 (2005).
Corrosion
of Submerged Artifacts and the Conservation of the USS Monitor
Desmond C. Cook, and Curtiss E. Peterson.
American Institute of Physics, CP765, 91-96, (2005), ISBN 0-7354-0250-7.
Spectroscopic
identification of the protective and non-protective corrosion coatings on steel
structures in marine environments
Desmond C. Cook.
Corrosion Science 47, 2550-2570 (2005).
3. GALVANNEAL and Iron-Zinc Alloys
Zinc-iron phases formed on
galvannealed steel.
D.C. Cook, R.S. Tuszynski and H.E. Townsend.
Hyperfine Interactions 54, 781 (1990).
Mössbauer effect and xrd studies in
iron-zinc binary alloys.
R.G. Grant and D.C. Cook.
Hyperfine Interactions 94, 2309 (1994).
Raman spectroscopy of the zeta phase zinc-iron
intermetallic compound.
H.E. Townsend, G.L. Johnson, R.G. Grant and D.C. Cook.
Scripta Metallurgica et Materialia 31(11), 1445 (1994).
Preparation and chemical analysis of high purity
iron-zinc alloys.
R.G. Grant, P.S. Cook and D.C. Cook.
Journal of Materials Research, 10(10), 2454 (1995).
Iron-zinc phase identification in
commercial galvanneal steel.
R.G. Grant and D.C. Cook.
Proceedings Galvatech >95, C.E. Slater
Publisher, 509 (1995).
Study of the microstructure of
Fe-Zn-Al and Fe-Zn-Pb ternary alloys.
T.Q. Coddington and D.C. Cook.
Proceedings Galvatech >95, C.E. Slater
Publisher, 515 (1995).
Identification of multiple iron sites
in Fe-Zn binary alloys.
D.C. Cook and R.G. Grant.
Proceedings Galvatech >95, C.E. Slater
Publisher, 497 (1995).
Iron-zinc phase identification in
commercial galvanneal steel coatings.
R.G. Grant and D.C. Cook
Proceedings ICAME=95, 929 (1996). Pub. Italian
Physical Society.
Mössbauer spectroscopy of aluminum
substituted galvanneal steel.
T.Q. Coddington and D.C. Cook
Proceedings ICAME=95, 925 (1996). Pub. Italian
Physical Society.
Iron-zinc intermetallics in commercial
galvanneal steel coatings.
D.C. Cook and R.G. Grant.
Mössbauer Spectroscopy Applied to Magnetism and Materials Science, G.J. Long and F.
Grandjean, eds., Vol. 2, Ch. 10, 225-271, Plenum Pub. Corp., N.Y. (1996). ISBN
0-306-45398-3.
In-situ identification of the
iron-zinc intermetallics in galvannealed steel coatings and iron oxides on exposed steel.
D.C. Cook
Hyperfine Interactions, 111, 71-84 (1998).
Modification of galvannealed steel
through aluminum addition.
T.Q. Coddington and D.C. Cook.
Hyperfine Interactions, 111, 205-209 (1998).
Intermetallic phase formation in
galvanneal steel coatings with varying aluminum concentration.
T.Q. Coddington and D.C. Cook.
Hyperfine Interactions C3, 104-107, (1998).
ICAME97 AWARD
4. MECHANICAL ALLOYING and High Nitrogen Steels
The microstructural properties of
highly nitrogenated iron and iron-aluminum powders.
D.C. Cook and J.C. Rawers.
Hyperfine Interactions 92, 959 (1994).
Bct-formation during mechanical processing of
bcc-fe
powder.
J.C. Rawers, D. Govier and D.C. Cook.
Scripta Metallurgica et Materialia, 32(9), 1319 (1995).
Microstructure development and stability of iron
powder mechanically alloyed in a nitrogen atmosphere.
J.C. Rawers, D. Govier , D.C. Cook.
Journal of Materials Synthesis and Processing, 3(4), 263 (1995).
Formation of bct-fe through attritor
ball-milling of iron powder in nitrogen.
D.C. Cook, T. H. Kim and J.C. Rawers
Proceedings ICAME=95, 141 (1996). Pub. Italian
Physical Society.
Mechanically alloying of nitrogen into
iron powders.
J.C. Rawers, D. Govier and D.C. Cook.
ISIJ International, 36(7), 958 (1996).
Microstructural development of iron
powder during attritor ball milling.
D.C. Cook, T. H. Kim and J.C. Rawers.
Materials Science Forum vols. 225-227, 533-538 (1996).
Similarities and differences in the microstructure
of attritor-milled Fe-Al-N compositions
J.C. Rawers and D.C. Cook.
Journal of Materials Research, 12(4), 947 (1997).
Differences in the microstructure of
iron mechanically processed powder alloyed with interstitial and substitutional elements.
J.C. Rawers, R. Krabbe, D.C. Cook and T.H. Kim
Nanostructured Materials, 9, 947-952 (1997).
Applications of Mössbauer
spectroscopy in the characterization of nanostructured materials.
J.C. Rawers, D.C. Cook and T.H. Kim.
J. Materials Science and Engineering, A248, 212-220, (1998).
Effect of mechanical alloying on the
microstructural properties of Fe-xAl system.
Rama Balasubramanian, D.C. Cook and J.C. Rawers.
Hyperfine Interactions C3, 25-28, (1998).
X-ray diffraction and Mössbauer
effect characterization of attritor-milled nanostructured iron and iron-nitrogen powders.
J.C. Rawers, D.C. Cook and T.H. Kim
Philosophical Magazine A78(4), 965-977, (1998).
Influence of attrition milling on
nano-grain
boundaries.
J.C. Rawers and D.C. Cook
Nanostructured Materials 11(3), 331-342 (1999).
Nitrogen Addition to bcc-Fe by Attrition Milling.
J. Rawers, R. Krabbe and D. Cook.
Materials Science Forum 318-320, 695-700 (1999).
Gas flow proportional counter for low
temperature conversion electron Mössbauer spectroscopy.
D.C. Cook and E. Agyekum.
Nuclear Instruments and Methods in Physics Research B12, 515 (1985).
Mössbauer effect study of gadolinium
iron garnet.
D.C. Cook and Jun Li.
Hyperfine Interactions 28, 495 (1986).
A gas flow proportional counter for
the Mössbauer study of surfaces between 100 K and 400K.
D.C. Cook.
Hyperfine Interactions 29, 1463 (1986).
Magnetic field distributions in
zinc-nickel ferrite.
T.A. Dooling and D.C. Cook.
Journal of Applied Physics 69, 5352 (1991).
Phase changes in plasma sprayed
zinc-nickel ferrite.
T.A. Dooling and D.C. Cook.
Journal of Applied Physics 69, 5355 (1991).
Measurement
of nuclear quadrupole interactions
Mössbauer spectroscopy.
D.C. Cook
The Nuclear Quadrupole Interactions Newsletter, 1(4), 8 (1995).
Measurement
of nuclear quadrupole interactions by Mössbauer spectroscopy.
D.C. Cook
Zeitschrift fur Naturforsch, A51, 368 (1996).
Applications of
Mössbauer Spectroscopy in Industry.
D. C. Cook.
Hyperfine Interactions, 141-142, 21-34 (2002).
Applications
of Mössbauer Spectroscopy to the Study of Corrosion
D. C. Cook.
Hyperfine Interactions, 153(1-4), 61-82 (2004).
6. GADOLINIUM Mössbauer
The magnetic ordering direction in GdAlO3.
D. C. Cook and J. D. Cashion.
Journal of Physics C: Solid State Physics 9, 97 (1976).
Determination of the nuclear
parameters of 155Gd excited states using the Mössbauer effect.
D.C. Cook and J.D. Cashion.
Hyperfine Interactions 5, 479 (1978).
Mössbauer measurements and exchange interactions in
antiferromagnetic GdVO4.
D.C. Cook and J.D. Cashion.
Journal of Physics C: Solid State Physics 12, 605 (1979).
Mössbauer measurements in canted antiferromagnetic
GdAlO3.
D.C. Cook and J.D. Cashion.
Journal of Physics C: Solid State Physics 13, 4199 (1980).
Mössbauer effect study of the 105.3
KeV transition in 155Gd.
D.C. Cook and G.A. McGhee.
Nuclear Instruments and Methods in Physics Research B18, 80 (1986).
Magnetic interactions in GdAl3.
N.G. Ruggiero, D.C. Cook and A.S. Edelstein.
Hyperfine Interactions 54, 689 (1990).